Project cooperationUpdated on 27 January 2026
Water retention system for agriculture
Agricultural engineer at CGFP Sp. z o.o.
Bydgoszcz, Poland
About
Water retention system will optimize the management of available water resources for agricultural purposes at the local and farm level. It will also result in sustain biodiveristy and protect natural ecosystems due to integration with nature-based solutions.
It will support the following decisions: when and where to retain water; how much water to transfer between reservoirs; how to optimize the management of available water resources for specific soil types and plant needs, with particular attention to critical development stages.
The system will combine various techniques such as: (i) landscape structures, e.g., ponds, buffer zones, small wetlands; (ii) agrotechnical measures, e.g. appropriate crop rotation, reduced tillage, and catch/cover crops; (iii) irrigation and drainage infrastructure, e.g., drains, gates, pumps, pipelines, reservoirs, and ditches; (iv) measurement equipment and weather forecasts supported by remote sensing to analyse weather and soil conditions, plant growth stages, evapotranspiration, and water balance; (v) mathematical models and AI algorithms that help predict water demand and control water flow in real time.
Stage
- Design - setting the project scope
Topic
- HORIZON-MISS-2026-01-CLIMA-04: Bridging the gap between disaster risk management and climate adaptation
- HORIZON-MISS-2026-05-SOIL-01: Living labs to enhance soil health in managed forests and in natural/semi-natural lands
- HORIZON-MISS-2026-05-SOIL-03: Monitoring soil health in practice: equipping stakeholders to sample, analyse, and interpret soil health indicators
- HORIZON-MISS-2026-05-SOIL-two-stage: Living labs to enhance soil health in Alpine and Atlantic biogeographical regions
Type
- Offering Expertise to Consortias
Organisation
Similar opportunities
Project cooperation
- HORIZON-MISS-2026-05-SOIL-01: Living labs to enhance soil health in managed forests and in natural/semi-natural lands
- HORIZON-MISS-2026-05-SOIL-05: Antimicrobial resistance and antibiotic biosynthesis in soils – a One-Health perspective
- HORIZON-MISS-2026-05-SOIL-two-stage: Living labs to enhance soil health in Alpine and Atlantic biogeographical regions
Carmen-Mihaela Popescu
Leading researcher at Petru Poni Institute of Macromolecular Chemistry
Iasi, Romania
Project cooperation
- Completing the consortia
- Offering Expertise to Consortias
- Ideation - identifying the project idea
- HORIZON-MISS-2026-05-SOIL-01: Living labs to enhance soil health in managed forests and in natural/semi-natural lands
- HORIZON-MISS-2026-05-SOIL-03: Monitoring soil health in practice: equipping stakeholders to sample, analyse, and interpret soil health indicators
Julien Louvieaux
Researcher - Lecturer at Haute Ecole provinciale de Hainaut Condorcet
Ath, Belgium
Project cooperation
Innovative farm towards soil health improvement
- Offering Expertise to Consortias
- Design - setting the project scope
- Ideation - identifying the project idea
- HORIZON-MISS-2026-05-SOIL-01: Living labs to enhance soil health in managed forests and in natural/semi-natural lands
- HORIZON-MISS-2026-05-SOIL-two-stage: Living labs to enhance soil health in Alpine and Atlantic biogeographical regions
- HORIZON-MISS-2026-05-SOIL-04: Boosting EU competitiveness: advancing food system transformation through innovative soil health solutions
- HORIZON-MISS-2026-05-SOIL-03: Monitoring soil health in practice: equipping stakeholders to sample, analyse, and interpret soil health indicators
Wiesława Kasperska-Wołowicz
Agricultural engineer at CGFP Sp. z o.o.
Bydgoszcz, Poland